KR200248169Y1 - structure censor for low water of boiler - Google Patents

Abstract

The present invention comprises a fixing part having a fixing hole on the upper side of the water chamber bolts protruding to the outside, and fixed to the bolt by rotating in a predetermined direction, and is fixed to the fixing hole and the control part by the water pressure of the water The grounding part is connected to the grounded micro-switch to prevent the fresh water from leaking out of the chamber when the internal parts are replaced or repaired, and it is possible to replace some parts, thereby reducing the burden of quality and quality. It relates to a low water level sensor structure of a boiler which has an advantage in improving reliability.

Description

Structure censor for low water of boiler

The present invention relates to a boiler for heating by using petroleum, and more particularly, to a low water level sensor which is formed on one side of the water chamber to control the amount of water to be contained in the inside of the water chamber.

In general, a boiler is a heating device that uses a fuel to heat a room. In such a boiler, a petroleum boiler is generally provided in a circular plate body as shown in FIG. An external body 10 configured to heat the introduced heating water and discharge the heating water is configured, and an oil pump 11 for forcibly pumping fuel stored in an oil tank (not shown) is configured inside the external body 10. A burner 12 configured to generate a flame by igniting the fuel pumped through the oil pump 11 and ignited at the same time includes a combustion unit 13 combusting the flame ignited by the burner 12 in a predetermined space. Is configured, the heat exchanger 14 for heat-exchanging the heat burned through the combustion unit 13 with the heating water circulated to the indoor heating tube and hot water supplied directly from the water tank installed outdoors. A discharge unit 15 configured to reduce the noise of the exhaust gas passing through the heat exchange unit 14 and discharge it to the outside is formed, and surrounds the outside of the heat exchange unit 14 and the combustion unit 13 to store heating water. The water chamber 16 is comprised, and the control part 17 which controls all the operation | movement of a boiler is comprised in the exterior of a boiler.

And the water chamber 16 is the heating water flows into the lower portion of the boiler, the introduced heating water is heat exchanged and the hot water is discharged to the heating water discharge pipe configured in the upper portion of the boiler, the water of the heating water fresh water in the water chamber (16) It should be set to a certain height or more, the conventional structure of the low water level sensor for controlling this has been used the energization sensor 20 using the electrode as shown in Figure 2a.

The energization sensor 20, a bolt 161 is formed on the upper side of the water chamber 16 protruding to the outside, the sensing member 21 is inserted into the bolt 161 is operated is configured, A nut 22 which accommodates the sensing member 21 and prevents it from being separated is rotated and coupled to the bolt 161 in a predetermined direction, and the nut 22 is connected to the control unit 17 configured outside the boiler. do. When the electricity supply sensor 20 is connected to the electricity sensor 20 as described above and the electricity is blocked, the lamp of the controller 17 lights up, or a buzzer sounds to generate a message to replenish water.

By the way, in the energization sensor 20 configured as described above, when lightning occurs during the rainy season, the sensing member 21 is an electrode, and there is a problem in that the control function of the control unit 17 is impaired under the influence of lightning.

Recently, in order to solve the problem of the energization sensor 20. As shown in FIG. 2B, a pressure sensor 30 using water pressure has been used.

The pressure sensor 30, the bolt 161 is a screw thread protruding to the outside of the upper chamber 16, one side is provided with a ground terminal 32, the other side is composed of a housing 31, The diaphragm 33 is operated inside the housing 31 by the water pressure of the water, and the ground pin 34 is formed at the center inner front of the diaphragm 33. In the pressure sensor 30 configured as described above, when the water level of the water chamber 16 decreases and the pressure drops, the ground pin 34 formed at the center of the ground terminal 32 is connected to the ground terminal 32 due to the property of the diaphragm 33 returning to its original state. If it is not grounded, the low water level is sensed and the lamp of the control unit 17 lights up, or a buzzer sounds to generate a message to refill the water.

However, since the pressure sensor 30 configured as described above operates by sensing water pressure, lightning may be protected, but the housing 31 is integrally formed so that the housing 31 may be replaced when the internal parts are replaced or repaired. Since the heating water in the water chamber 16 is higher than the bolt 161 configured at one side of the water chamber 16, the bolt 161 located at the upper portion of the water chamber 16 must be separated from the bolt 161. There is a problem that the heating water flows out, there is also an economical problem because some parts can not be replaced.

Accordingly, the present invention has been made in view of the above-mentioned conventional defects, and its object is to provide economical burden by allowing only parts to be replaced without allowing the heating water in the chamber to flow out during internal parts replacement or repair. The purpose is to reduce.

The low water level sensor structure of the boiler of the present invention for achieving the above object comprises a fixing part having a fixing hole on the upper side of the water chamber and having a fixing hole and rotating in a predetermined direction to the bolt. Is fixed to the fixing hole is characterized in that the ground is configured to ground the micro switch connected to the control unit by the water pressure.

1 is a cross-sectional view of a typical boiler

2 is a cross-sectional view showing a conventional low water level sensor,

a is using an energization sensor,

b is a pressure sensor.

3 is an exploded perspective view of the present invention

Figure 4 is a cross-sectional view of the low water level sensor to which the present invention is applied

5 is an operation state diagram of the low water level sensor to which the present invention is applied,

a is the state before replenishing water,

b is the state which replenished water.

<Explanation of symbols for the main parts of the drawings>

10: outer body 40: fixed part

41: fixing cap 42: locking member

43: fixed block 50: ground

51: diaphragm 52: ground pin

53: micro switch

Hereinafter, a configuration of an embodiment of the present invention will be described in detail with reference to the accompanying drawings. FIG. 3 is an exploded perspective view of the present invention, and FIG. 4 is a cross-sectional view of a low water level sensor to which the present invention is applied.

Petroleum boiler to which the present invention is applied is provided with a circular plate body as usual, one side of the heating water flows into the lower side, the upper portion of the one side is configured to the outer body 10 in which the heated water is heat-exchanged and the heating water is discharged. 10, an oil pump 11 for forcibly pumping fuel stored in an oil tank (not shown) is configured, and the fuel pumped through the oil pump 11 is injected and ignited to generate a flame at the same time. (12) is configured, a combustion section (13) for burning the flame ignited by the burner (12) in a predetermined space is configured, and the heat burned through the combustion section (13) is circulated to an indoor heating tube. The heat exchanger 14 is configured to exchange heat with hot water supplied directly from a heating water and a water tank installed outdoors, and the discharge unit 15 for reducing the noise of the exhaust gas passing through the heat exchanger 14 and discharging it to the outside. Consists of, Susilo group 16 which surrounds the exterior of the heat exchange section 14 and the combustion section 13 stores the number of the heater is configured, the control unit 17 that controls all operations of the boiler is configured on the outside of the boiler.

The boiler low water level sensor structure of the present invention in such a petroleum boiler includes a fixing hole 421 in a bolt 161 which protrudes outward from an upper portion of the water chamber 16, and rotates in a predetermined direction in the bolt 161. It is configured to be fixed to the fixed portion 40, and the ground portion 50 is fixed to the fixing hole 421 is connected to the control unit 17 by the water pressure of the ground (50), This will be described in more detail as follows.

The fixing part 40 is provided with a through hole 411 through which the center penetrates and is fixed to the bolt 161 formed on the upper side of the water chamber 16. In one side of the inside is provided with a fixing hole 421 penetrated there is a locking member 42 is provided with a locking projection 422 facing the outside of the fixing hole 421, the interior is penetrated through The fixing block 43 is provided with a locking groove 431 opposite to one side of the.

The ground portion 50 is made of a soft rubber and is configured with a diaphragm 51 protruding at a predetermined height outside the center, and is attached to the center of the diaphragm 51 and one side protrudes with a predetermined length. The pin 52 is configured, and in a rectangular shape, one side of the ground protrusion 531 is provided, and the other side of the micro switch 53 having the ground piece 532 is connected to the control unit 17.

The following describes the assembly and operation of the low water level sensor structure of the present invention boiler configured as described above.

First, in the coupling process, as shown in FIG. 4, the diaphragm 51 accommodating the ground pin 52 in the center of the bolt 161 protruding to the outside of the threaded thread on the upper side of the water chamber 16. Close contact with the fixing cap 41 provided with the fixing hole 421 to the bolt 161 is coupled to rotate in a predetermined direction. At this time, the ground pin 52 in close contact with the diaphragm 51 is fitted into the through hole 411 penetrated in the center of the fixing cap 41. In addition, the fixing hole 421 of the locking member 42 formed at one side of the fixing cap 41 is provided with a grounding protrusion 531 on one side and a grounding portion 532 on the other side. And the fixing block 43 for accommodating the locking member 42 is pressed against the front of the locking member 42. The fixed block 43 pressurized is fixed to the locking projection 422 formed on the outside of the locking member 42 is caught in the locking groove 431 formed inside the fixing block 43, the micro switch 53 The ground pin 52 configured at one side of the is connected to the control unit 17.

Subsequently, when water needs to be replenished, as shown in FIG. 5A, when the water level of the water chamber 16 is lowered and the pressure drops, the diaphragm 51 is configured at the center of the micro switch 53 due to the property of returning to the original state. In the ground protrusion 531, the ground pin 52 is not grounded and sensed by the low water level sensor. At this time, the lamp of the control unit 17 turns on, or a buzzer sounds to generate a message to replenish water. If the water is not replenished at this time, the boiler will be stopped and unusable.

In addition, when replenishing and using water, as shown in FIG. 5B, the diaphragm 51 with the ground pin 52 is grounded while pressurizing the ground protrusion 531 of the micro switch 53 by water pressure. The sensor is not detected, so it remains available.

Next, when the micro switch 53 is broken, first, when the fixing block 43 is pulled to detach from the locking member 42, the fixing block seated on the fixing protrusion 422 of the locking member 42. The fixing groove 431 of the 43 is separated and separated, and the micro switch 53 fitted in the fixing hole 421 of the locking member 42 may be separated and repaired or replaced after the upper part. The heating water freshwater inside the diaphragm 51 blocks the bolt 161 of the water chamber 16, and the fixing cap 41 is supported on the outside of the diaphragm 51 so that the heating water of the water chamber 16 is heated. Will not leak out. When the repair is finished, the micro switch 53 is inserted into the fixing hole 421 of the locking member 42, and the fixing block 43 is pressed against the locking member 42 to press the fixing protrusion 422. ), The fixing groove 431 of the fixing block 43 is seated and the coupling is completed.

As described above, the low water level sensor structure of the boiler according to the present invention comprises a fixing part having a fixing hole in a bolt with a screw thread projecting outward on the upper side of the water chamber, and fixed to the fixing hole to control the water by the pressure of water. The grounding part is connected to the grounded micro-switch to prevent the fresh water from leaking out of the chamber when the internal parts are replaced or repaired, and it is possible to replace some parts, thereby reducing the burden of quality and quality. It has an advantage in improving reliability.

Claims (1)

In the upper side of the water chamber 16, a bolt 161 having a thread protruding outward is configured, and in the low water level sensor structure for adjusting the water level of the fresh water inside the water chamber 16, A through hole 411 is formed in the center, and includes a fixing cap 41 coupled to the bolt 161 of the chamber, and a fixing hole 421 opened up and down one side in one center of the through hole 411. And a locking member 42 in which locking protrusions 422 are formed to face opposite outer wall surfaces of the fixing holes 421. A fixing part (40) having a fixing block (43) detachably coupled to the locking member (42) formed on the inner wall to correspond to the locking protrusion (422); One side is protruded to a predetermined height and the ground pin 52 is attached to the center of one side is provided with a diaphragm 51 accommodated inside the fixing cap 41 and in close contact with the front of the bolt 161, in the center of one side A plurality of ground pieces 532 are connected to each other and the center of the other side of the ground pin 52 attached to the diaphragm 51 to the horizontal protrusion 531 protrudes to be inserted into the fixing block 43 Low water level sensor structure of the boiler, characterized in that the ground portion 50 is provided with a switch (53).